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Smart Weather Data Management Based on Artificial Intelligence and Big Data Analytics for Precision Agriculture

Author

Listed:
  • Chouaib El Hachimi

    (Center for Remote Sensing Applications (CRSA), Mohammed VI Polytechnic University (UM6P), Ben Guerir 43150, Morocco)

  • Salwa Belaqziz

    (Center for Remote Sensing Applications (CRSA), Mohammed VI Polytechnic University (UM6P), Ben Guerir 43150, Morocco
    LabSIV Laboratory, Department of Computer Science, Faculty of Science, UIZ University, Agadir 80000, Morocco)

  • Saïd Khabba

    (Center for Remote Sensing Applications (CRSA), Mohammed VI Polytechnic University (UM6P), Ben Guerir 43150, Morocco
    LMFE, Department of Physics, Faculty of Sciences Semlalia, Cadi Ayyad University, Marrakesh 40000, Morocco)

  • Badreddine Sebbar

    (Center for Remote Sensing Applications (CRSA), Mohammed VI Polytechnic University (UM6P), Ben Guerir 43150, Morocco
    Centre d’Etudes Spatiales de la Biosphère (CESBIO), Université de Toulouse, 31400 Toulouse, France)

  • Driss Dhiba

    (International Water Research Institute (IWRI), Mohammed VI Polytechnic University (UM6P), Ben Guerir 43150, Morocco)

  • Abdelghani Chehbouni

    (Center for Remote Sensing Applications (CRSA), Mohammed VI Polytechnic University (UM6P), Ben Guerir 43150, Morocco
    International Water Research Institute (IWRI), Mohammed VI Polytechnic University (UM6P), Ben Guerir 43150, Morocco)

Abstract

Smart management of weather data is an essential step toward implementing sustainability and precision in agriculture. It represents an important input for numerous tasks, such as crop growth, development, yield, and irrigation scheduling, to name a few. Advances in technology allow collecting this weather data from heterogeneous sources with high temporal resolution and at low cost. Generating and using these data in their raw form makes no sense, and therefore implementing adequate infrastructure and tools is necessary. For that purpose, this paper presents a smart weather data management system evaluated using data from a meteorological station installed in our study area covering the period from 2013 to 2020 at a half-hourly scale. The proposed system makes use of state-of-the-art statistical methods, machine learning, and deep learning models to derive actionable insights from these raw data. The general architecture is made up of four layers: data acquisition, data storage, data processing, and application layers. The data sources include real-time sensors, IoT devices, reanalysis data, and raw files. The data are then checked for errors and missing values using a proposed method based on ERA5-Land reanalysis data and deep learning. The resulting coefficient of determination (R 2 ) and Root Mean Squared Error (RMSE) for this method were 0.96 and 0.04, respectively, for the scaled air temperature estimate. The MongoDB NoSQL database is used for storage thanks to its ability to deal with real-world big data. The system offers various services such as (i) weather time series forecasts, (ii) visualization and analysis of meteorological data, and (iii) the use of machine learning to estimate the reference evapotranspiration (ET 0 ) needed for efficient irrigation. To this, the platform uses the XGBoost model to achieve the precision of the Penman–Monteith method while using a limited number of meteorological variables (air temperature and global solar radiation). Results for this approach give R 2 = 0.97 and RMSE = 0.07. This system represents the first incremental step toward implementing smart and sustainable agriculture in Morocco.

Suggested Citation

  • Chouaib El Hachimi & Salwa Belaqziz & Saïd Khabba & Badreddine Sebbar & Driss Dhiba & Abdelghani Chehbouni, 2022. "Smart Weather Data Management Based on Artificial Intelligence and Big Data Analytics for Precision Agriculture," Agriculture, MDPI, vol. 13(1), pages 1-22, December.
    • Handle: RePEc:gam:jagris:v:13:y:2022:i:1:p:95-:d:1018932
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    References listed on IDEAS

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    1. George Frisvold & Charles Sanchez & Noel Gollehon & Sharon B. Megdal & Paul Brown, 2018. "Evaluating Gravity-Flow Irrigation with Lessons from Yuma, Arizona, USA," Sustainability, MDPI, vol. 10(5), pages 1-27, May.
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